THS1031IPW Datasheet, PDF(29/41 Page) Texas Instruments – 3-V TO 5.5-V, 10-BIT, 30 MSPS CMOS ANALOG-TO-DIGITAL CONVERTER

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

THS1031IPW Datasheet, PDF (29/41 Pages) Texas Instruments – 3-V TO 5.5-V, 10-BIT, 30 MSPS CMOS ANALOG-TO-DIGITAL CONVERTER

◁

THS1031

3-V TO 5.5-V, 10-BIT, 30 MSPS

CMOS ANALOG-TO-DIGITAL CONVERTER

SLAS242E â NOVEMBER 1999 â REVISED MARCH 2002

PRINCIPLES OF OPERATION

AIN input current and input load modeling (continued)

R< 20 â¦ AIN

Figure 33. Damping Source Ringing Using a Small Resistor

equivalent input resistance at AIN and ac-coupling to AIN

Some applications may require ac-coupling of the input signal to the AIN pin. Such applications can use an

ac-coupling network such as shown in Figure 34.

AVDD

R(Bias1)

Cin

AIN

R(Bias2)

Figure 34. AC-Coupling the Input Signal to the AIN Pin

Note that if the bias voltage is derived from the supplies, as shown in Figure 34, then additional filtering should

be used to ensure that noise from the supplies does not reach AIN.

Working with the input current pulse equations given in the previous section is awkward when designing

ac-coupling input networks. For such design, it is much simpler to model the AIN input as an equivalent

resistance, RAIN, from the AIN pin to a voltage source VM where

VM = (REFTS + REFBS)/2 and RAIN = 1 / (CS x fclk)

where fclk is the CLK frequency.

The high-pass â3 dB cutoff frequency for the circuit shown in Figure 34 is:

Ç Ç * + f( 3 dB)

2 p RINtot

(12)

where RINtot is the parallel combination of Rbias1, Rbias2, and RAIN. This approximation is good provided that

the clock frequency, fclk, is much higher than f(â3 dB).

Note also that the effect of the equivalent RAIN and VM at the AIN pin must be allowed for when designing the

bias network dc level.

â¢ POST OFFICE BOX 655303 DALLAS, TEXAS 75265

▷